淡水海绵 Ephydatia fluviatilis (Linnaeus, 1759) 有多适合用于微生物水质的时间整合生物监测？

Access Microbiology Pub Date : 2024-04-01 DOI:10.1099/acmi.0.000691.v4

A. Cartwright, J. Dooley, Christopher McGonigle, J. Arnscheidt

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引用次数: 0

摘要

水中的细菌粪便污染会对水质产生负面影响，并可能对健康造成危害。传统的微生物水质监测依赖于对低频点样本的分析，因此很可能会遗漏偶发性或周期性污染。本研究旨在调查滤食海绵在对微生物水质进行时间整合生物监测方面的潜力。实验室试验测试了淡水海绵 Ephydatia fluviatilis（林尼厄斯，1759 年）的不同细菌丰度比率和暴露顺序对细菌滞留的影响，以确定其指示细菌暴露的潜力。将宝石藻生长的海绵同时暴露于大肠杆菌和粪肠球菌，但暴露比例不同（试验 1），或单独暴露于每种细菌，但暴露顺序不同（试验 2）。通过在选择性琼脂上培养，对每块海绵中保留的大肠杆菌和粪肠球菌进行量化。使用 Kruskal-Wallis 检验和/或 Mann-Whitney U 检验进行数据分析，以比较各处理中保留的细菌数量。此外，还使用 Wilcoxon 配对符号秩检验来比较每个海绵中保留的不同细菌丰度。所有试验的海绵都保留了大肠杆菌和粪肠球菌，但相对于暴露量而言，数量较少（试验 1 <0.05 %，试验 2 <0.07%），但大肠杆菌的保留量较高。细菌种类越多，同一种类在海绵中的保留率就越低（P<0.005）（试验 1）。与先接触粪肠球菌的情况相比（试验 2），先接触大肠杆菌的情况下，两种细菌的截留率都明显较高（P=0.040）。这意味着海绵有选择性过滤或试图防止感染。不过，淡水海绵作为粪便指示细菌的定性时间积分采样器，在生物监测中可能仍然有用，因为它们可以检测到水中存在的不同细菌，即使无法估计其数量。

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How suitable is freshwater sponge Ephydatia fluviatilis (Linnaeus, 1759) for time-integrated biomonitoring of microbial water quality?

Faecal pollution of water by bacteria has a negative effect on water quality and can pose a potential health hazard. Conventional surveillance of microbial water quality relies on the analysis of low-frequency spot samples and is thus likely to miss episodic or periodic pollution. This study aimed to investigate the potential of filter-feeding sponges for time-integrated biomonitoring of microbial water quality. Laboratory trials tested the effects of different ratios of bacterial abundance and the sequence of exposure on bacterial retention by the freshwater sponge Ephydatia fluviatilis (Linnaeus, 1759) to establish its potential to indicate bacterial exposure. Gemmule grown sponges were simultaneously exposed to Escherichia coli and Enterococcus faecalis but at different ratios (Trial 1) or individually exposed to each bacterial species but in different sequential order (Trial 2). The E. coli and E. faecalis retained in each sponge was quantified by culture on selective agars. Data analysis was conducted using the Kruskal–Wallis test and/or the Mann–Whitney U test to compare between the numbers of bacteria retained in each treatment. Additionally, the Wilcoxon matched-paired signed-rank test was used for comparison of the different bacterial abundances retained within each individual sponge. Sponges from all trials retained E. coli and E. faecalis in small numbers relative to the exposure (<0.05 % Trial 1 and <0.07 % Trial 2) but exhibited higher retention of E. coli. Higher abundance of either bacterial species resulted in significantly lower (P<0.005) retention of the same species within sponges (Trial 1). An initial exposure to E. coli resulted in significantly higher (P=0.040) retention of both bacterial species than when sponges were exposed to E. faecalis first (Trial 2).Bacterial retention by sponges was neither quantitatively representative of bacterial abundance in the ambient water nor the sequence of exposure. This implies either selective filtration or an attempt by sponges to prevent infection. However, freshwater sponges may still be useful in biomonitoring as qualitative time-integrated samplers of faecal indicator bacteria as they detect different bacteria present in the water even if their quantities cannot be estimated.

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